The Journal of
the Korean Society on Water Environment

The Journal of
the Korean Society on Water Environment

Bimonthly
  • ISSN : 2289-0971 (Print)
  • ISSN : 2289-098X (Online)
  • KCI Accredited Journal

Editorial Office

  1. Home
  2. All Issues
  3. 2015-05 (Vol. 31, No. 3)
  4. 10.15681/KSWE.2015.31.3.272
XML PDF INFO REF
1 
Brando V. E., Dekker A. G., 2003, Satellite Hyperspectral Remote Sensing for Estimating Estuarine and Coastal Water Quality, IEEE Transactions on Geoscience and Remote Sensing, Brando, V. E. and Dekker, A. G. (2003). Satellite Hyperspectral Remote Sensing for Estimating Estuarine and Coastal Water Quality, IEEE Transactions on Geoscience and Remote Sensing, 41, pp. 1378-1387., Vol. 41, pp. 1378-1387DOI
2 
Buiteveld H., Hakvoort J. H. M., Donze M., 1994, The Optical Properties of Pure Water, Buiteveld, H., Hakvoort, J. H. M., and Donze, M. (1994). The Optical Properties of Pure Water, SPIE Proceedings, Ocean Optics XII, 2258, pp. 174-183., Vol. 2258, pp. 174-183Google Search
3 
Dall'Olmo G., Gitelson A. A., 2006, Effect of Bio-optical Parameter Variability and Uncertainties in Reflectance Measurements on the Remote Estimation of Chlorophyll-a Concentration in Turbid Productive Waters: Modeling Results, Applied Optics, Dall'Olmo, G. and Gitelson, A. A. (2006). Effect of Bio-optical Parameter Variability and Uncertainties in Reflectance Measurements on the Remote Estimation of Chlorophyll-a Concentration in Turbid Productive Waters: Modeling Results, Applied Optics, 45(15), pp. 3577-3592., Vol. 45, No. 15, pp. 3577-3592DOI
4 
Dall'Olmo G., Gitelson A. A., Rundquist D. C., 2003, Towards a Unified Approach for Remote Estimation of Chlorophyll-a Inboth Terrestrial Vegetation and Turbid Productive Waters, Geophysical Research Letters, Dall'Olmo, G., Gitelson, A. A., and Rundquist, D. C. (2003). Towards a Unified Approach for Remote Estimation of Chlorophyll-a Inboth Terrestrial Vegetation and Turbid Productive Waters, Geophysical Research Letters, 30, pp. 1038., Vol. 30, pp. 1038DOI
5 
Dekker A., 1993, Detection of the Optical Water Quality Parameters for Eutrophic Waters by High Resolution Remote Sensing, Ph.D. Thesis, Dekker, A. (1993). Detection of the Optical Water Quality Parameters for Eutrophic Waters by High Resolution Remote Sensing, Ph.D. Thesis, Free University, Amsterdam, The Netherlands.Google Search
6 
Garver S. A., Siegel D. A., 1997, Inherent Optical Property Inversion of Ocean Color Spectra and Its Biogeochemical Interpretation 1. Time Series from the Sargasso Sea, Journal of Geophysical ResearchOceans, Garver, S. A. and Siegel, D. A. (1997). Inherent Optical Property Inversion of Ocean Color Spectra and Its Biogeochemical Interpretation 1. Time Series from the Sargasso Sea, Journal of Geophysical Research-Oceans, 102, pp. 18607-18625., Vol. 102, pp. 18607-18625DOI
7 
Giardino C., Brando V. E., Dekker A. G., Strombeck N., Candiani G., 2007, Assessment of Water Quality in Lake Garda (Italy) using Hyperion, Remote Sensing of Environment, Giardino, C., Brando, V. E., Dekker, A. G., Strombeck, N., and Candiani, G. (2007). Assessment of Water Quality in Lake Garda (Italy) using Hyperion, Remote Sensing of Environment, 109, pp. 183-195., Vol. 109, pp. 183-195DOI
8 
Gitelson A. A., 1992, The Peak Near 700 nm on Reflectance Spectra of Algae and Water: Relationships of Its Magnitude and Position with Chlorophyll Concentration, International Journal of Remote Sensing, Gitelson, A. A. (1992). The Peak Near 700 nm on Reflectance Spectra of Algae and Water: Relationships of Its Magnitude and Position with Chlorophyll Concentration, International Journal of Remote Sensing, 13, pp. 3367-3373., Vol. 13, pp. 3367-3373DOI
9 
Gilerson A. A., Gitelson A. A., Gurlin D., Moses W., Ioannou I., Ahmed S., 2010, Algorithms for Remote Estimation of Chlorophyll-a in Coastal and Inland Waters using Red and Near Infrared Bands, Optics Express, Gilerson, A. A., Gitelson, A. A., Gurlin, D., Moses, W., Ioannou, I., and Ahmed, S. (2010). Algorithms for Remote Estimation of Chlorophyll-a in Coastal and Inland Waters using Red and Near Infrared Bands, Optics Express, 18, pp. 24109-24125., Vol. 18, pp. 24109-24125DOI
10 
Gitelson A. A., Gritz U., Merzlyak M. N., 2003, Relationships between Leaf Chlorophyll Content and Spectral Reflectance and Algorithms for Non-destructive Chlorophyll Assessment in Higher Plant Leaves, Journal of Plant Physiology, Gitelson, A. A., Gritz, U., and Merzlyak, M. N. (2003). Relationships between Leaf Chlorophyll Content and Spectral Reflectance and Algorithms for Non-destructive Chlorophyll Assessment in Higher Plant Leaves, Journal of Plant Physiology, 160, pp. 271-282., Vol. 160, pp. 271-282DOI
11 
Gitelson A., Keydan G., Shishkin V., 1985, Inland Waters Quality Assessment from Satellite Data in Visible Range of the Spectrum, Soviet Remote Sensing, Gitelson, A., Keydan, G., and Shishkin, V. (1985). Inland Waters Quality Assessment from Satellite Data in Visible Range of the Spectrum, Soviet Remote Sensing, 6, pp. 28-36., Vol. 6, pp. 28-36Google Search
12 
Gitelson A. A., Kondratyev K. Y., 1991, Optical Models of Mesotrophic and Eutrophic Water Bodies, International Journal of Remote Sensing, Gitelson, A. A. and Kondratyev, K. Y. (1991). Optical Models of Mesotrophic and Eutrophic Water Bodies, International Journal of Remote Sensing, 12, pp. 373-385., Vol. 12, pp. 373-385DOI
13 
Gitelson A. A., Kondratyev K., Garbusov G., 1987, New Approach to Monitoring Aquatic Ecosystem Quality, Transactions of the USSR Academy of Sciences: Earth Science Sections, Gitelson, A. A., Kondratyev, K., and Garbusov, G. (1987). New Approach to Monitoring Aquatic Ecosystem Quality, Transactions of the USSR Academy of Sciences: Earth Science Sections, 295, pp. 825-827., Vol. 295, pp. 825-827Google Search
14 
Gitelson A. A., Schalles J. F., Hladik C. M., 2007, Remote Chlorophyll-a Retrieval in Turbid, Productive Estuaries: Chesapeake Bay Case Study, Remote Sensing of Environment, Gitelson, A. A., Schalles, J. F., and Hladik, C. M. (2007). Remote Chlorophyll-a Retrieval in Turbid, Productive Estuaries: Chesapeake Bay Case Study, Remote Sensing of Environment, 109, pp. 464-472., Vol. 109, pp. 464-472DOI
15 
Gitelson A. A., Vina A., Ciganda V., Rundquist D. C., Arkebauer T. J., 2005, Remote Estimation of Canopy Chlorophyll Content in Crops, Geophysical Research Letters, Gitelson, A. A., Vina, A., Ciganda, V., Rundquist, D. C., and Arkebauer, T. J. (2005). Remote Estimation of Canopy Chlorophyll Content in Crops, Geophysical Research Letters, 32, L08403. doi:10.1029/2005GL022688, Vol. 32, pp. L08403DOI
16 
Gons H. J., 1999, Optical Teledetection of Chlorophyll a in Turbid Inland Waters, Environmental Science & Technology, Gons, H. J. (1999). Optical Teledetection of Chlorophyll a in Turbid Inland Waters, Environmental Science & Technology, 33, pp. 1127-1132., Vol. 33, pp. 1127-1132DOI
17 
Gons H. J., Auer M. T., Effler S. W., 2008, MERIS Satellite Chlorophyll Mapping of Oligotrophic and Eutrophic Waters in the Laurentian Great Lakes, Remote Sensing of Environment, Gons, H. J., Auer, M. T., and Effler, S. W. (2008). MERIS Satellite Chlorophyll Mapping of Oligotrophic and Eutrophic Waters in the Laurentian Great Lakes, Remote Sensing of Environment, 112, pp. 4098-4106., Vol. 112, pp. 4098-4106DOI
18 
Gons H. J., Rijkeboer M., Ruddick K. G., 2002, A Chlorophyll-Retrieval Algorithm for Satellite Imagery (Medium Resolution Imaging Spectrometer) of Inland and Coastal Waters, Journal of Plankton Research, Gons, H. J., Rijkeboer, M., and Ruddick, K. G. (2002). A Chlorophyll-Retrieval Algorithm for Satellite Imagery (Medium Resolution Imaging Spectrometer) of Inland and Coastal Waters, Journal of Plankton Research, 24, pp. 947-951., Vol. 24, pp. 947-951DOI
19 
Gons H. J., Rijkeboer M., Ruddick K. G., 2005, Effect of a Waveband Shift on Chlorophyll Retrieval from MERIS Imagery of Inland and Coastal Waters, Journal of Plankton Research, Gons, H. J., Rijkeboer, M., and Ruddick, K. G. (2005). Effect of a Waveband Shift on Chlorophyll Retrieval from MERIS Imagery of Inland and Coastal Waters, Journal of Plankton Research, 27, pp. 125-127., Vol. 27, pp. 125-127Google Search
20 
Gordon H., Brown O. B., Evans R. H., Brown J. W., Smith R. C., Baker K. S., Clark D. K., 1988, A Semianalytic Radiance Model of Ocean Color, Journal of Geophysical Research-Atmospheres, Gordon, H., Brown, O. B., Evans, R. H., Brown, J. W., Smith, R. C., Baker, K. S., and Clark, D. K. (1988). A Semianalytic Radiance Model of Ocean Color, Journal of Geophysical Research-Atmospheres, 93, pp. 10909-10924., Vol. 93, pp. 10909-10924DOI
21 
Gordon H, Morel A., 1983, Remote Assessment of Ocean Color for Interpretation of Satellite Visible Imagery, Gordon, H and Morel, A. (1983). Remote Assessment of Ocean Color for Interpretation of Satellite Visible Imagery, Lecture Notes on Coastal and Estuarine Studies 4, Springer-Verlag., Vol. 4Google Search
22 
Gould R. W., Arnone R. A., Sydor M., 2001, Absorption, Scattering; and Remotesensing Reflectance Relationships in Coastalwaters: Testing a Newinversion Algorithm, Journal of Coastal Research, Gould, R. W., Arnone, R. A., and Sydor, M. (2001). Absorption, Scattering; and Remotesensing Reflectance Relationships in Coastalwaters: Testing a Newinversion Algorithm, Journal of Coastal Research, 17, pp. 328-341., Vol. 17, pp. 328-341Google Search
23 
Gower J. F. R., Doerffer R., Borstad G. A., 1999, Interpretation of the 685 nm Peak in Water-Leaving Radiance Spectra in Terms of Fluorescence, Absorption and Scattering, and its Observation by MERIS, international Journal of Remote Sensing, Gower, J. F. R., Doerffer, R., and Borstad, G. A. (1999). Interpretation of the 685 nm Peak in Water-Leaving Radiance Spectra in Terms of Fluorescence, Absorption and Scattering, and its Observation by MERIS, international Journal of Remote Sensing, 20, pp. 1771-1786., Vol. 20, pp. 1771-1786DOI
24 
Han L., Rundquist D., 1997, Comparison of NIR/RED Ratio and First Derivative of Reflectance in Estimating Algal-Chlorophyll Concentration: A Case Study in a Turbid Reservoir, Remote Sensing of Environment, Han, L. and Rundquist, D. (1997). Comparison of NIR/RED Ratio and First Derivative of Reflectance in Estimating Algal-Chlorophyll Concentration: A Case Study in a Turbid Reservoir, Remote Sensing of Environment, 62, pp. 253-261., Vol. 62, pp. 253-261DOI
25 
Hakvoort H., de Haan J., Jordans R., Vos R., Peters S., Rijkeboer M., 2002, Towards Airborne Remote Sensing of Water Quality in the Netherlands - Validation and Error Analysis, ISPRS Journal of Photogrammetry and Remote Sensing, Hakvoort, H., de Haan, J., Jordans, R., Vos, R., Peters, S., and Rijkeboer, M. (2002). Towards Airborne Remote Sensing of Water Quality in the Netherlands — Validation and Error Analysis, ISPRS Journal of Photogrammetry and Remote Sensing, 57, pp. 171-183., Vol. 57, pp. 171-183DOI
26 
Hirawake T., Takao S., Horimoto N., Ishimaru T., Yamaguchi Y., Fukuchi M., 2011, A Phytoplankton Absorption-Based Primary Productivity Model for Remote Sensing in the Southern Ocean, Polar Biology, Hirawake, T., Takao, S., Horimoto, N., Ishimaru, T., Yamaguchi, Y., and Fukuchi, M. (2011). A Phytoplankton Absorption-Based Primary Productivity Model for Remote Sensing in the Southern Ocean, Polar Biology, 34, pp. 291-302., Vol. 34, pp. 291-302DOI
27 
Hoge F. E., Lyon P. E., 1996, Satellite Retrieval of Inherent Optical Properties by Linear Matrix Inversion of Oceanic Radiance Models: An Analysis of Model and Radiance Measurement Errors, Journal of Geophysical Research-Oceans, Hoge, F. E. and Lyon, P. E. (1996). Satellite Retrieval of Inherent Optical Properties by Linear Matrix Inversion of Oceanic Radiance Models: An Analysis of Model and Radiance Measurement Errors, Journal of Geophysical Research-Oceans, 101, pp. 16631-16648., Vol. 101, pp. 16631-16648DOI
28 
Hoge F. E, Lyon P. E., 1999, Spectral Parameters of Inherent Optical Property Models: Method for Satellite Retrieval by Matrix Inversion of an Oceanic Radiance Model, Applied Optics, Hoge, F. E and Lyon, P. E. (1999). Spectral Parameters of Inherent Optical Property Models: Method for Satellite Retrieval by Matrix Inversion of an Oceanic Radiance Model, Applied Optics, 38, pp. 1657-1662., Vol. 38, pp. 1657-1662DOI
29 
Hoge F. E., Lyon P. E., 2005, New Tools for the Study of Oceanic Eddies: Satellite Derived Inherent Optical Properties, Remote Sensing of Environment, Hoge, F. E. and Lyon, P. E. (2005). New Tools for the Study of Oceanic Eddies: Satellite Derived Inherent Optical Properties, Remote Sensing of Environment, 95, pp. 444-452., Vol. 95, pp. 444-452DOI
30 
Hoogenboom H. J., Dekker A. G., de Haan J. F., 1998, Retrieval of Chlorophyll and Suspended Matter from Imaging Spectrometry Data by Matrix Inversion, Canadian Journal of Remote Sensing, Hoogenboom, H. J., Dekker, A. G., and de Haan, J. F. (1998). Retrieval of Chlorophyll and Suspended Matter from Imaging Spectrometry Data by Matrix Inversion, Canadian Journal of Remote Sensing, 24, pp. 144-152., Vol. 24, pp. 144-152DOI
31 
Jupp D. L. B., Kirk J. T. O., Harris G. P., 1994, Detection, Identification and Mapping of Cyanobacteria - Using Remote-Sensing to Measure the Optical-Quality of Turbid Inland Waters, Australian Journal of Marine & Freshwater Research, Jupp, D. L. B., Kirk, J. T. O., and Harris, G. P. (1994). Detection, Identification and Mapping of Cyanobacteria — Using Remote-Sensing to Measure the Optical-Quality of Turbid Inland Waters, Australian Journal of Marine & Freshwater Research, 45, pp. 801-828., Vol. 45, pp. 801-828DOI
32 
Kutser T., 2004, Quantitative Detection of Chlorophyll in Cyanobacterial Blooms by Satellite Remote Sensing, Limnology and Oceanography, Kutser, T. (2004). Quantitative Detection of Chlorophyll in Cyanobacterial Blooms by Satellite Remote Sensing, Limnology and Oceanography, 49, pp. 2179-2189., Vol. 49, pp. 2179-2189DOI
33 
Kutser T., Hiire M., Metsamaa L., Vahtmae E., Paavel B., Aps R., 2009, Field Measurements of Spectral Backscattering Coefficient of the Baltic Sea and Boreal Lakes, Boreal Environment Research, Kutser, T., Hiire, M., Metsamaa, L., Vahtmae, E., Paavel, B., and Aps, R. (2009). Field Measurements of Spectral Backscattering Coefficient of the Baltic Sea and Boreal Lakes, Boreal Environment Research, 14, pp. 305-312., Vol. 14, pp. 305-312Google Search
34 
Le C. F., Li Y. M., Zha Y., Sun D. Y., Yin B., 2009, Validation of a Quasi-Analytical Algorithm for Highly Turbid Eutrophic Water of Meiliang Bay in Taihu Lake, China, IEEE Transactions on Geoscience and Remote Sensing, Le, C. F., Li, Y. M., Zha, Y., Sun, D. Y., and Yin, B. (2009). Validation of a Quasi-Analytical Algorithm for Highly Turbid Eutrophic Water of Meiliang Bay in Taihu Lake, China, IEEE Transactions on Geoscience and Remote Sensing, 47, pp. 2492-2500., Vol. 47, pp. 2492-2500DOI
35 
Lee Z. P., Carder K. L., 2004, Absorption Spectrum of Phytoplankton Pigments Derived from Hyperspectral Remote-Sensing Reflectance, Remote Sensing of Environment, Lee, Z. P. and Carder, K. L. (2004). Absorption Spectrum of Phytoplankton Pigments Derived from Hyperspectral Remote-Sensing Reflectance, Remote Sensing of Environment, 89, pp. 361-368., Vol. 89, pp. 361-368DOI
36 
Lee Z. P., Carder K. L., Arnone R. A., 2002, Deriving Inherent Optical Properties from Water Color: A Multiband Quasi-Analytical Algorithm for Optically Deep Waters, Applied Optics, Lee, Z. P., Carder, K. L., and Arnone, R. A. (2002). Deriving Inherent Optical Properties from Water Color: A Multiband Quasi-Analytical Algorithm for Optically Deep Waters, Applied Optics, 41, pp. 5755-5772., Vol. 41, pp. 5755-5772DOI
37 
Lee Z. P., Carder K. L., Peacock T. G., Davis C. O., Mueller J. L., 1996, Method to Derive Ocean Absorption Coefficients from Remote-Sensing Reflectance, Applied Optics, Lee, Z. P., Carder, K. L., Peacock, T. G., Davis, C. O., and Mueller, J. L. (1996). Method to Derive Ocean Absorption Coefficients from Remote-Sensing Reflectance, Applied Optics, 35, pp. 453-462., Vol. 35, pp. 453-462DOI
38 
Lee Z. P., Lubac B., Werdell J., Arnone R., 2009, An Update of the Quasi-Analytical Algorithm(QAA_v5), IOCCG Software Report, Lee, Z. P., Lubac, B., Werdell, J., and Arnone, R. (2009). An Update of the Quasi-Analytical Algorithm(QAA_v5), IOCCG Software Report (www.ioccg.org/groups/Software_OCA).Google Search
39 
Li L., Li L., Song K., Li Y., Tedesco L. P., Shi K., Li Z., 2013, An Inversion Model for Deriving Inherent Optical Properties of Inland Waters: Establishment, Validation and Application, Remote Sensing of Environment, Li, L., Li, L., Song, K., Li, Y., Tedesco, L. P., Shi, K., Li, Z. (2013). An Inversion Model for Deriving Inherent Optical Properties of Inland Waters: Establishment, Validation and Application, Remote Sensing of Environment, 135, pp. 150-166., Vol. 135, pp. 150-166DOI
40 
Ma R. H., Pan D. L., Duan H. T., Song Q. J., 2009, Absorption and Scattering Properties of Water Body in Taihu Lake, China: Backscattering, International Journal of Remote Sensing, Ma, R. H., Pan, D. L., Duan, H. T., and Song, Q. J. (2009). Absorption and Scattering Properties of Water Body in Taihu Lake, China: Backscattering, International Journal of Remote Sensing, 30, pp. 2321-2335., Vol. 30, pp. 2321-2335DOI
41 
Maritorena S., Siegel D. A., 2005, Consistent Merging of Satellite Ocean Color Data Sets Using a Bio-Optical Model, Remote Sensing of Environment, Maritorena, S. and Siegel, D. A. (2005). Consistent Merging of Satellite Ocean Color Data Sets Using a Bio-Optical Model, Remote Sensing of Environment, 94, pp. 429-440., Vol. 94, pp. 429-440DOI
42 
Maritorena S., Siegel D. A., 2006, Remote Sensing of Inherent Optical Properties, Fundamentals, Tests of Algorithms, and Applications, Maritorena, S. and Siegel, D. A. (2006). The GSM Semi-Analytical Bio-Optical Model, in Z. P. Lee (Ed.), Remote Sensing of Inherent Optical Properties, Fundamentals, Tests of Algorithms, and Applications, pp. 81-86. Canada: Dartmous., pp. 81-86Google Search
43 
Maritorena S., Siegel D. A., Peterson A. R., 2002, Optimization of a Semianalytical Ocean Color Model for Global-Scale Applications, Applied Optics, Maritorena, S., Siegel, D. A., and Peterson, A. R. (2002). Optimization of a Semianalytical Ocean Color Model for Global-Scale Applications, Applied Optics, 41, pp. 2705-2714., Vol. 41, pp. 2705-2714DOI
44 
Mittenzwey K. H., Ullrich S., Gitelson A. A., Kondratiev K. Y., 1992, Determination of Chlorophyll a of Inland Waters on the Basis of Spectral Reflectance, Limnology and Oceanography, Mittenzwey, K. H., Ullrich, S., Gitelson, A. A., and Kondratiev, K. Y. (1992). Determination of Chlorophyll a of Inland Waters on the Basis of Spectral Reflectance, Limnology and Oceanography, 37, pp. 147-149., Vol. 37, pp. 147-149DOI
45 
Morel A., Prieur L., 1997, Analysis of Variations in Ocean Color, Limnology and Oceanography, Morel, A. and Prieur, L. (1997). Analysis of Variations in Ocean Color, Limnology and Oceanography, 22, pp. 709-722., Vol. 22, pp. 709-722Google Search
46 
Oliver M. J., Schofield O., Bergmann T., Glenn S., 2004, Deriving in situ Phytoplankton Absorption for Bio-Optical Productivity Models in Turbid Waters, Journal of Geophysical Research, Oliver, M. J., Schofield, O., Bergmann, T., and Glenn, S. (2004). Deriving in situ Phytoplankton Absorption for Bio-Optical Productivity Models in Turbid Waters, Journal of Geophysical Research, 109, C07S04, http://dx.doi.org/10.1029/2002JC001627., Vol. 109, pp. C07S04DOI
47 
Ritchie R. J., 2008, Universal Chlorophyll Equations for Estimating Chlorophylls A, B, C, and D and Total Chlorophylls in Natural Assemblages of Photosynthetic Organisms Using Acetone, Methanol, or Ethanol Solvents, Photosynthetica, Ritchie, R. J. (2008). Universal Chlorophyll Equations for Estimating Chlorophylls A, B, C, and D and Total Chlorophylls in Natural Assemblages of Photosynthetic Organisms Using Acetone, Methanol, or Ethanol Solvents, Photosynthetica, 46, pp. 115-126., Vol. 46, pp. 115-126DOI
48 
Simis S. G. H., Peters S. W. M., Gons H. J., 2005, Remote Sensing of the Cyanobacterial Pigment Phycocyanin in Turbid Inland Water, Limnology and Oceanography, Simis, S. G. H., Peters, S. W. M., and Gons, H. J. (2005). Remote Sensing of the Cyanobacterial Pigment Phycocyanin in Turbid Inland Water, Limnology and Oceanography, 50, pp. 237-245., Vol. 50, pp. 237-245DOI
49 
Simis S. G. H., Ruiz-Verdu A., Dominguez-Gomez J. A., Pena-Martinez R., Peters S. W. M., Gons H. J., 2007, Influence of Phytoplankton Pigment Composition on Remote Sensing of Cyanobacterial Biomass, Remote Sensing of Environment, Simis, S. G. H., Ruiz-Verdu, A., Dominguez-Gomez, J. A., Pena-Martinez, R., Peters, S. W. M., and Gons, H. J. (2007). Influence of Phytoplankton Pigment Composition on Remote Sensing of Cyanobacterial Biomass, Remote Sensing of Environment, 106, pp. 414-427., Vol. 106, pp. 414-427DOI
50 
Stumpf R. P., Tyler M. A., 1988, Satellite Detection of Bloom and Pigment Distributions in Estuaries, Remote Sensing of Environment, Stumpf, R. P. and Tyler, M. A. (1988). Satellite Detection of Bloom and Pigment Distributions in Estuaries, Remote Sensing of Environment, 24, pp. 385-404., Vol. 24, pp. 385-404DOI
51 
Sun D. Y., Li Y. M., Wang Q., Lv H., Le C. F., Huang C. C., Gong S. H., 2010, Partitioning Particulate Scattering and Absorption into Contributions of Phytoplankton and Non-Algal Particles in Winter in Lake Taihu, Hydrobiologia, Sun, D. Y., Li, Y. M., Wang, Q., Lv, H., Le, C. F., Huang, C. C., and Gong, S. H. (2010). Partitioning Particulate Scattering and Absorption into Contributions of Phytoplankton and Non-Algal Particles in Winter in Lake Taihu, Hydrobiologia, 644, pp. 337-349., Vol. 644, pp. 337-349DOI
52 
Wang P., Boss E. S., Roesler C., 2005, Uncertainties of Inherent Optical Properties Obtained Fromsemianalytical Inversions of Ocean Color, Applied Optics, Wang, P., Boss, E. S., and Roesler, C. (2005). Uncertainties of Inherent Optical Properties Obtained Fromsemianalytical Inversions of Ocean Color, Applied Optics, 44, pp. 4074-4085., Vol. 44, pp. 4074-4085DOI
53 
Zhang Y. L., Liu M. L., Wang X., Zhu G. W., Chen W. M., 2009, Bio-Optical Properties and Estimation of the Optically Active Substances in Lake Tianmuhu in Summer, International Journal of Remote Sensing, Zhang, Y. L., Liu, M. L., Wang, X., Zhu, G. W., and Chen, W. M. (2009). Bio-Optical Properties and Estimation of the Optically Active Substances in Lake Tianmuhu in Summer, International Journal of Remote Sensing, 30, pp. 2837-2857., Vol. 30, pp. 2837-2857DOI
54 
Zibordi G., Berthon J. F., Melin F., D’Alimonte D., 2011, Cross-Site Consistent in situ Measurements for Satellite Ocean Color Applications: The Biomap Radiometric Dataset, Remote Sensensing of Environment, Zibordi, G., Berthon, J. F., Melin, F., and D’Alimonte, D. (2011). Cross-Site Consistent in situ Measurements for Satellite Ocean Color Applications: The Biomap Radiometric Dataset, Remote Sensensing of Environment, 115, pp. 2104-2115., Vol. 115, pp. 2104-2115DOI
55 
Zibordi G., Melin F., Hooker S. B., D’alimonte D., Holbert B., 2004, An Autonomous Above-Water System for the Validation of Ocean Color Radiance Data, IEEE Transaction on Geoscience and Remote Sensing, Zibordi, G., Melin, F., Hooker, S. B., D’alimonte, D., and Holbert, B. (2004). An Autonomous Above-Water System for the Validation of Ocean Color Radiance Data, IEEE Transaction on Geoscience and Remote Sensing, 42, pp. 401-415., Vol. 42, pp. 401-415DOI
56 
Vasilkov A., Kopelevich O., 1982, Reasons for the Appearance of the Maximum Near 700 nm in the Radiance Spectrum Emitted by the Ocean Layer, Oceanology, Vasilkov, A. and Kopelevich, O. (1982). Reasons for the Appearance of the Maximum Near 700 nm in the Radiance Spectrum Emitted by the Ocean Layer, Oceanology, 22, pp. 697-701., Vol. 22, pp. 697-701Google Search
뒤로가기